Silicalite characterization. 2. IR spectroscopy of the interaction of carbon monoxide with internal and external hydroxyl groups

Zecchina, A.; Bordiga, Silvia; Spoto, Giuseppe; Marchese, Leonardo; Petrini, G.; Leofanti, G.; Padovan, M.

doi:10.1021/j100191a048

Cited by 331 publications

(252 citation statements)

References 3 publications

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“…The spectrum of bare mordenite shows a complex and intense band in the region between 3750 and 3000 cm À1 where silanol groups absorb [39]. This high intensity is attributable to the large amount of silanol defects produced by the dealumination process [1,4].…”

Section: Ftirsupporting

confidence: 50%

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Adsorption and reaction of sulfachloropyridazine sulfonamide antibiotic on a high silica mordenite: A structural and spectroscopic combined study

Martucci

Cremonini

Blasioli

et al. 2013

Microporous and Mesoporous Materials

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a b s t r a c tOwing to their acidic nature, sulfonamide antibiotics concentrate in anionic form in water bodies where they can remain unchanged for long periods of time, accounting for great concern for antibiotic-resistance issues. In this study the removal of sulfachloropyridazine (4-amino-N-(6-Cl-3-pyridazinyl)benzene sulfonamide) antibiotic from water by adsorption on a high silica mordenite with channel window dimension comparable to that of the antibiotic, and with a significant concentration of internal silanol groups due to the dealumination process, was investigated. The adsorption of sulfachloropyridazine by mordenite at room temperature was completed within 4 h with the maximal amount of adsorbed antibiotic of 15.1% zeolite dry weight. The desorption trials elucidated the irreversibility of the adsorption process. The embedding of sulfachloropyridazine into mordenite channels was confirmed by a combined XRPD and FTIR study. Rietveld structure refinement revealed that the incorporation of sulfachloropyridazine molecules caused changes in the dimension of the zeolite channel systems, when compared to the parent zeolite, and a close vicinity of the heterocycle ring nitrogen to the oxygens of mordenite side pocket. FTIR revealed a strong perturbation of the vibrational modes of both the pyridazinyl ring and mordenite silanol groups upon antibiotic adsorption. When the adsorption was conducted at 65°C, an unfavourable temperature effect was highlighted and, interestingly, sulfachloropyridazine transformed with 100% selectivity to 4-amino-N-(6-hydroxyl-3-pyridazinyl)benzene sulfonamide. A nucleophilic aromatic substitution (S N Ar) mechanism was suggested for the formation of the reaction product. It is proposed that the H-bond between mordenite silanol groups and pyridazine nitrogen atom, clearly detected by FTIR, stabilize in the ring partial positive charges favouring the displacement of the chloride leaving group.

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Section: Ftirsupporting

confidence: 50%

“…A defined and weak band due to isolated silanols inside microporosities is found at 3728 cm À1 whereas the most intense and broad band in the range 3700-2900 cm À1 is assigned to H-bonded donor (i.e. vicinal) silanols (Scheme 1) [39,40].…”

Section: Ftirmentioning

confidence: 99%

Adsorption and reaction of sulfachloropyridazine sulfonamide antibiotic on a high silica mordenite: A structural and spectroscopic combined study

Martucci

Cremonini

Blasioli

et al. 2013

Microporous and Mesoporous Materials

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“…La reacción de transposición de Beckmann se ha estudiado utilizando una gran variedad de catalizadores heterogéneos incluyendo sílices 29 , alúminas 30 , sílice-alúminas 31 , óxidos de boro soportados 9,16,30,[32][33][34][35][36][37][38][39] , óxidos de tantalio soportados 40 , titanio silicalitas 41 , zeolitas Y 13,22,42 , Beta 15,23,[43][44][45] , mordenita 46 , pentasil 3,10,14,16,32,33,[46][47][48][49][50][51][52][53][54][55][56][57][58][59] , SAPO-11 60 , SAPO-34 y materiales mesopososos 18,51,61-63,64,65 , con acidez de distinta naturaleza y fuerza, con el fin de determinar con exactitud la naturaleza de los centros activos en la reacción. Sin embargo, las conclusiones obtenidas en los distintos trabajos difieren en cuanto a cuál es la fuerza ácida requerida para la producción de la lactama; acidez débil, fuerte o intermedia, incluso se ha sugerido que los centros neutros eran los más...…”

Section: Catalizadores Sólidos Utilizados En La Reacción De Transposiunclassified

“…Estudios posteriores postularon que una acidez débil o intermedia Brönsted 9,18,28 mejoraban la actividad y selectividad a la amida. Finalmente, se han sugerido los grupos silanoles de acidez débil o neutra, 11,14,46,47,49,52,66-68 o los silanoles "nests" 16,43,50,53,54,69 como centros activos en la reacción de transposición. Dentro del grupo de las zeolitas, el material tipo MFI (zeolita ZSM-5 y Silicalita) ha sido de los catalizadores más utilizados para estudiar la reacción de transposición de Beckmann de la ciclohexanona oxima.…”

Section: Zeolitasunclassified

“…Modelo estructural de silanoles "nests". 72 Posteriormente, se investigaron los efectos de los tratamientos químicos realizados para la zeolita tipo MFI en zeolitas tipo beta con aluminio y boro, 43 no obteniéndose mejoras significativas en su actividad catalítica. Por tanto, se concluye que las zeolitas beta sin tratar son catalizadores muy favorables para esta reacción.…”

Section: 68unclassified

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